1.000000
0.000000
0.000000
0.000000
1.000000
0.000000
0.000000
0.000000
1.000000
0.00000
0.00000
0.00000
Liu, Y.
Kahn, R.
Prestegard, J.
http://mmcif.pdb.org/dictionaries/ascii/mmcif_pdbx.dic
C3 H7 N O2
89.093
y
ALANINE
L-peptide linking
C6 H15 N4 O2 1
175.209
y
ARGININE
L-peptide linking
C4 H8 N2 O3
132.118
y
ASPARAGINE
L-peptide linking
C4 H7 N O4
133.103
y
ASPARTIC ACID
L-peptide linking
C3 H7 N O2 S
121.158
y
CYSTEINE
L-peptide linking
C5 H10 N2 O3
146.144
y
GLUTAMINE
L-peptide linking
C5 H9 N O4
147.129
y
GLUTAMIC ACID
L-peptide linking
C2 H5 N O2
75.067
y
GLYCINE
peptide linking
C10 H16 N5 O14 P3
523.180
n
GUANOSINE-5'-TRIPHOSPHATE
non-polymer
C6 H10 N3 O2 1
156.162
y
HISTIDINE
L-peptide linking
C6 H13 N O2
131.173
y
ISOLEUCINE
L-peptide linking
C6 H13 N O2
131.173
y
LEUCINE
L-peptide linking
C6 H15 N2 O2 1
147.195
y
LYSINE
L-peptide linking
C5 H11 N O2 S
149.211
y
METHIONINE
L-peptide linking
C10 H18 N O3 S2
264.385
S-[(1-oxyl-2,2,5,5-tetramethyl-2,5-dihydro-1H-pyrrol-3-yl)methyl] methanesulfonothioate
MTSL
non-polymer
C14 H28 O2
228.371
MYRISTIC ACID
non-polymer
C9 H11 N O2
165.189
y
PHENYLALANINE
L-peptide linking
C5 H9 N O2
115.130
y
PROLINE
L-peptide linking
C3 H7 N O3
105.093
y
SERINE
L-peptide linking
C4 H9 N O3
119.119
y
THREONINE
L-peptide linking
C11 H12 N2 O2
204.225
y
TRYPTOPHAN
L-peptide linking
C9 H11 N O3
181.189
y
TYROSINE
L-peptide linking
C5 H11 N O2
117.146
y
VALINE
L-peptide linking
US
Nat.Struct.Mol.Biol.
1545-9993
17
876
881
10.1038/nsmb.1853
20601958
Dynamic structure of membrane-anchored Arf*GTP.
2010
20515.562
ADP-ribosylation factor 1
1
man
polymer
264.385
S-[(1-oxyl-2,2,5,5-tetramethyl-2,5-dihydro-1H-pyrrol-3-yl)methyl] methanesulfonothioate
5
syn
non-polymer
523.180
GUANOSINE-5'-TRIPHOSPHATE
1
syn
non-polymer
no
yes
(MYR)GLFASKLFSNLFGNKEMRILMVGLDGAGKTTVLYKLKLGEVITTIPTIGFNVECVQYCNISFTVWDVGGQDRIRS
LWRHYYCNTEGVIFVVDSNDRSRIGEAREVMQRMLNEDELCNAAWLVFANKQDLPEAMSAAEITEKLGLHSIRNRPWFIQ
ATCATSGEGLYEGLEWLSNCLKNST
XGLFASKLFSNLFGNKEMRILMVGLDGAGKTTVLYKLKLGEVITTIPTIGFNVECVQYCNISFTVWDVGGQDRIRSLWRH
YYCNTEGVIFVVDSNDRSRIGEAREVMQRMLNEDELCNAAWLVFANKQDLPEAMSAAEITEKLGLHSIRNRPWFIQATCA
TSGEGLYEGLEWLSNCLKNST
A
polypeptide(L)
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
n
yeast
sample
ARF1, YDL192W, D1244
4932
Saccharomyces cerevisiae
562
Escherichia coli
pET20(b)
T55, K59, R83, R117, and S176 are mutated one at a time to cysteine for PRE measurement. Therefore these residues are replaced by "3M" (cys-mtsl) in the primary sequence
repository
Initial release
Version format compliance
Non-polymer description
1
0
2010-07-07
1
1
2011-07-13
1
2
2011-07-27
BMRB
Y
RCSB
2010-01-12
REL
REL
MTN
S-[(1-oxyl-2,2,5,5-tetramethyl-2,5-dihydro-1H-pyrrol-3-yl)methyl] methanesulfonothioate
GTP
GUANOSINE-5'-TRIPHOSPHATE
A MYRISTOYL GROUP (DERIVED FROM MYRISTIC ACID) IS COVALENTLY ATTACHED TO THE N-TERMINUS VIA AN AMIDE BOND. FURTHERMORE, WILD-TYPE PROTEIN WAS USED FOR ALL EXPERIMENTS (NOESY AND RDC) EXCEPT FOR THE PRE EXPERIMENTS WHICH REQUIRES A X-TO-CYS MUTATION. THE CYS MUTATIONS ARE NOT SIMULTANEOUSLY PRESENT BUT ONE AT A TIME. HOWEVER THE PRE DATA WERE COMBINED DURING CALCULATION AND THEREFORE IT APPEARS ALL THESE RESIDUES ARE REPLACED BY CYS IN THE FINAL PDB.
structures with the lowest energy
280
20
3D HNCA
3D HNCACB
3D HN(CO)CA
3D C-excited C-CmHm TOCSY
3D NOESY-CH-HMQC
3D NOESY-NH-TROSY
3D NOESY-aromCH-CT-TROSY
3D HCCH-TOCSY
3D NOESY-NH-TROSY
3D NOESY-NH-TROSY
2D HSQC-TROSY
2D Jmod-NC'
2D Jmod-NH
2D 1H-15N fast HSQC
2D 1H-R1 HSQC
2D arom-CT-TROSY 1H IPAP
0.8
mM
[U-13C; U-15N; U-2H]
0.8
mM
[VI(d1)L-methyl-1H,13C; U-15N; U-2H]
0.8
mM
[PHE-1H,13C; U-15N; U-2H]
0.8
mM
[U-100% 13C; U-100% 15N; U-70% 2H]
0.3
mM
[U-15N; 70%-2H]
0.1
7
ambient
298
K
simulated annealing
1
lowest energy
0.8 mM [U-13C; U-15N; U-2H] protein, 95% H2O/5% D2O
95% H2O/5% D2O
0.8 mM [VI(d1)L-methyl-1H,13C; U-15N; U-2H] protein, 95% H2O/5% D2O
95% H2O/5% D2O
0.8 mM [PHE-1H,13C; U-15N; U-2H] protein, 95% H2O/5% D2O
95% H2O/5% D2O
0.8 mM [U-100% 13C; U-100% 15N; U-70% 2H] protein, 95% H2O/5% D2O
95% H2O/5% D2O
0.3 mM [U-15N; 70%-2H] protein, 95% H2O/5% D2O
95% H2O/5% D2O
Varian
collection
VNMRJ
Delaglio, Grzesiek, Vuister, Zhu, Pfeifer and Bax
processing
NMRPipe
Goddard
data analysis
SPARKY
Schwieters, Kuszewski, Tjandra and Clore
structure solution
X-PLOR_NIH
Schwieters, Kuszewski, Tjandra and Clore
refinement
X-PLOR_NIH
600
Varian
INOVA
Varian INOVA
800
Varian
INOVA
Varian INOVA
900
Varian
INOVA
Varian INOVA
MTN
55
2
MTN
MTN
182
A
MTN
59
2
MTN
MTN
183
A
MTN
83
2
MTN
MTN
184
A
MTN
117
2
MTN
MTN
185
A
MTN
176
2
MTN
MTN
186
A
GTP
182
3
GTP
GTP
187
A
MYR
1
n
1
MYR
1
A
GLY
2
n
2
GLY
2
A
LEU
3
n
3
LEU
3
A
PHE
4
n
4
PHE
4
A
ALA
5
n
5
ALA
5
A
SER
6
n
6
SER
6
A
LYS
7
n
7
LYS
7
A
LEU
8
n
8
LEU
8
A
PHE
9
n
9
PHE
9
A
SER
10
n
10
SER
10
A
ASN
11
n
11
ASN
11
A
LEU
12
n
12
LEU
12
A
PHE
13
n
13
PHE
13
A
GLY
14
n
14
GLY
14
A
ASN
15
n
15
ASN
15
A
LYS
16
n
16
LYS
16
A
GLU
17
n
17
GLU
17
A
MET
18
n
18
MET
18
A
ARG
19
n
19
ARG
19
A
ILE
20
n
20
ILE
20
A
LEU
21
n
21
LEU
21
A
MET
22
n
22
MET
22
A
VAL
23
n
23
VAL
23
A
GLY
24
n
24
GLY
24
A
LEU
25
n
25
LEU
25
A
ASP
26
n
26
ASP
26
A
GLY
27
n
27
GLY
27
A
ALA
28
n
28
ALA
28
A
GLY
29
n
29
GLY
29
A
LYS
30
n
30
LYS
30
A
THR
31
n
31
THR
31
A
THR
32
n
32
THR
32
A
VAL
33
n
33
VAL
33
A
LEU
34
n
34
LEU
34
A
TYR
35
n
35
TYR
35
A
LYS
36
n
36
LYS
36
A
LEU
37
n
37
LEU
37
A
LYS
38
n
38
LYS
38
A
LEU
39
n
39
LEU
39
A
GLY
40
n
40
GLY
40
A
GLU
41
n
41
GLU
41
A
VAL
42
n
42
VAL
42
A
ILE
43
n
43
ILE
43
A
THR
44
n
44
THR
44
A
THR
45
n
45
THR
45
A
ILE
46
n
46
ILE
46
A
PRO
47
n
47
PRO
47
A
THR
48
n
48
THR
48
A
ILE
49
n
49
ILE
49
A
GLY
50
n
50
GLY
50
A
PHE
51
n
51
PHE
51
A
ASN
52
n
52
ASN
52
A
VAL
53
n
53
VAL
53
A
GLU
54
n
54
GLU
54
A
CYS
55
n
55
CYS
55
A
VAL
56
n
56
VAL
56
A
GLN
57
n
57
GLN
57
A
TYR
58
n
58
TYR
58
A
CYS
59
n
59
CYS
59
A
ASN
60
n
60
ASN
60
A
ILE
61
n
61
ILE
61
A
SER
62
n
62
SER
62
A
PHE
63
n
63
PHE
63
A
THR
64
n
64
THR
64
A
VAL
65
n
65
VAL
65
A
TRP
66
n
66
TRP
66
A
ASP
67
n
67
ASP
67
A
VAL
68
n
68
VAL
68
A
GLY
69
n
69
GLY
69
A
GLY
70
n
70
GLY
70
A
GLN
71
n
71
GLN
71
A
ASP
72
n
72
ASP
72
A
ARG
73
n
73
ARG
73
A
ILE
74
n
74
ILE
74
A
ARG
75
n
75
ARG
75
A
SER
76
n
76
SER
76
A
LEU
77
n
77
LEU
77
A
TRP
78
n
78
TRP
78
A
ARG
79
n
79
ARG
79
A
HIS
80
n
80
HIS
80
A
TYR
81
n
81
TYR
81
A
TYR
82
n
82
TYR
82
A
CYS
83
n
83
CYS
83
A
ASN
84
n
84
ASN
84
A
THR
85
n
85
THR
85
A
GLU
86
n
86
GLU
86
A
GLY
87
n
87
GLY
87
A
VAL
88
n
88
VAL
88
A
ILE
89
n
89
ILE
89
A
PHE
90
n
90
PHE
90
A
VAL
91
n
91
VAL
91
A
VAL
92
n
92
VAL
92
A
ASP
93
n
93
ASP
93
A
SER
94
n
94
SER
94
A
ASN
95
n
95
ASN
95
A
ASP
96
n
96
ASP
96
A
ARG
97
n
97
ARG
97
A
SER
98
n
98
SER
98
A
ARG
99
n
99
ARG
99
A
ILE
100
n
100
ILE
100
A
GLY
101
n
101
GLY
101
A
GLU
102
n
102
GLU
102
A
ALA
103
n
103
ALA
103
A
ARG
104
n
104
ARG
104
A
GLU
105
n
105
GLU
105
A
VAL
106
n
106
VAL
106
A
MET
107
n
107
MET
107
A
GLN
108
n
108
GLN
108
A
ARG
109
n
109
ARG
109
A
MET
110
n
110
MET
110
A
LEU
111
n
111
LEU
111
A
ASN
112
n
112
ASN
112
A
GLU
113
n
113
GLU
113
A
ASP
114
n
114
ASP
114
A
GLU
115
n
115
GLU
115
A
LEU
116
n
116
LEU
116
A
CYS
117
n
117
CYS
117
A
ASN
118
n
118
ASN
118
A
ALA
119
n
119
ALA
119
A
ALA
120
n
120
ALA
120
A
TRP
121
n
121
TRP
121
A
LEU
122
n
122
LEU
122
A
VAL
123
n
123
VAL
123
A
PHE
124
n
124
PHE
124
A
ALA
125
n
125
ALA
125
A
ASN
126
n
126
ASN
126
A
LYS
127
n
127
LYS
127
A
GLN
128
n
128
GLN
128
A
ASP
129
n
129
ASP
129
A
LEU
130
n
130
LEU
130
A
PRO
131
n
131
PRO
131
A
GLU
132
n
132
GLU
132
A
ALA
133
n
133
ALA
133
A
MET
134
n
134
MET
134
A
SER
135
n
135
SER
135
A
ALA
136
n
136
ALA
136
A
ALA
137
n
137
ALA
137
A
GLU
138
n
138
GLU
138
A
ILE
139
n
139
ILE
139
A
THR
140
n
140
THR
140
A
GLU
141
n
141
GLU
141
A
LYS
142
n
142
LYS
142
A
LEU
143
n
143
LEU
143
A
GLY
144
n
144
GLY
144
A
LEU
145
n
145
LEU
145
A
HIS
146
n
146
HIS
146
A
SER
147
n
147
SER
147
A
ILE
148
n
148
ILE
148
A
ARG
149
n
149
ARG
149
A
ASN
150
n
150
ASN
150
A
ARG
151
n
151
ARG
151
A
PRO
152
n
152
PRO
152
A
TRP
153
n
153
TRP
153
A
PHE
154
n
154
PHE
154
A
ILE
155
n
155
ILE
155
A
GLN
156
n
156
GLN
156
A
ALA
157
n
157
ALA
157
A
THR
158
n
158
THR
158
A
CYS
159
n
159
CYS
159
A
ALA
160
n
160
ALA
160
A
THR
161
n
161
THR
161
A
SER
162
n
162
SER
162
A
GLY
163
n
163
GLY
163
A
GLU
164
n
164
GLU
164
A
GLY
165
n
165
GLY
165
A
LEU
166
n
166
LEU
166
A
TYR
167
n
167
TYR
167
A
GLU
168
n
168
GLU
168
A
GLY
169
n
169
GLY
169
A
LEU
170
n
170
LEU
170
A
GLU
171
n
171
GLU
171
A
TRP
172
n
172
TRP
172
A
LEU
173
n
173
LEU
173
A
SER
174
n
174
SER
174
A
ASN
175
n
175
ASN
175
A
CYS
176
n
176
CYS
176
A
LEU
177
n
177
LEU
177
A
LYS
178
n
178
LYS
178
A
ASN
179
n
179
ASN
179
A
SER
180
n
180
SER
180
A
THR
181
n
181
THR
181
A
author_defined_assembly
1
monomeric
1.0000000000
0.0000000000
0.0000000000
0.0000000000
1.0000000000
0.0000000000
0.0000000000
0.0000000000
1.0000000000
1_555
x,y,z
identity operation
0.0000000000
0.0000000000
0.0000000000
A
N
ASN
52
A
N
ASN
52
A
O
ASP
67
A
O
ASP
67
A
O
ILE
61
A
O
ILE
61
A
N
TYR
58
A
N
TYR
58
A
N
ASN
52
A
N
ASN
52
A
O
ASP
67
A
O
ASP
67
A
O
TRP
66
A
O
TRP
66
A
N
MET
22
A
N
MET
22
A
N
LEU
21
A
N
LEU
21
A
O
ILE
89
A
O
ILE
89
A
N
VAL
88
A
N
VAL
88
A
O
LEU
122
A
O
LEU
122
A
N
VAL
123
A
N
VAL
123
A
O
PHE
154
A
O
PHE
154
1
A
O2
MTN
182
B
O2
MTN
1
1
N
1
A
O3
MTN
182
B
O3
MTN
1
1
N
1
A
C12
MTN
182
B
C12
MTN
1
1
N
1
A
O2
MTN
183
C
O2
MTN
1
1
N
1
A
O3
MTN
183
C
O3
MTN
1
1
N
1
A
C12
MTN
183
C
C12
MTN
1
1
N
1
A
O2
MTN
184
D
O2
MTN
1
1
N
1
A
O3
MTN
184
D
O3
MTN
1
1
N
1
A
C12
MTN
184
D
C12
MTN
1
1
N
1
A
O2
MTN
185
E
O2
MTN
1
1
N
1
A
O3
MTN
185
E
O3
MTN
1
1
N
1
A
C12
MTN
185
E
C12
MTN
1
1
N
1
A
O2
MTN
186
F
O2
MTN
1
1
N
1
A
O3
MTN
186
F
O3
MTN
1
1
N
1
A
C12
MTN
186
F
C12
MTN
1
1
N
2
A
O2
MTN
182
B
O2
MTN
1
1
N
2
A
O3
MTN
182
B
O3
MTN
1
1
N
2
A
C12
MTN
182
B
C12
MTN
1
1
N
2
A
O2
MTN
183
C
O2
MTN
1
1
N
2
A
O3
MTN
183
C
O3
MTN
1
1
N
2
A
C12
MTN
183
C
C12
MTN
1
1
N
2
A
O2
MTN
184
D
O2
MTN
1
1
N
2
A
O3
MTN
184
D
O3
MTN
1
1
N
2
A
C12
MTN
184
D
C12
MTN
1
1
N
2
A
O2
MTN
185
E
O2
MTN
1
1
N
2
A
O3
MTN
185
E
O3
MTN
1
1
N
2
A
C12
MTN
185
E
C12
MTN
1
1
N
2
A
O2
MTN
186
F
O2
MTN
1
1
N
2
A
O3
MTN
186
F
O3
MTN
1
1
N
2
A
C12
MTN
186
F
C12
MTN
1
1
N
3
A
O2
MTN
182
B
O2
MTN
1
1
N
3
A
O3
MTN
182
B
O3
MTN
1
1
N
3
A
C12
MTN
182
B
C12
MTN
1
1
N
3
A
O2
MTN
183
C
O2
MTN
1
1
N
3
A
O3
MTN
183
C
O3
MTN
1
1
N
3
A
C12
MTN
183
C
C12
MTN
1
1
N
3
A
O2
MTN
184
D
O2
MTN
1
1
N
3
A
O3
MTN
184
D
O3
MTN
1
1
N
3
A
C12
MTN
184
D
C12
MTN
1
1
N
3
A
O2
MTN
185
E
O2
MTN
1
1
N
3
A
O3
MTN
185
E
O3
MTN
1
1
N
3
A
C12
MTN
185
E
C12
MTN
1
1
N
3
A
O2
MTN
186
F
O2
MTN
1
1
N
3
A
O3
MTN
186
F
O3
MTN
1
1
N
3
A
C12
MTN
186
F
C12
MTN
1
1
N
4
A
O2
MTN
182
B
O2
MTN
1
1
N
4
A
O3
MTN
182
B
O3
MTN
1
1
N
4
A
C12
MTN
182
B
C12
MTN
1
1
N
4
A
O2
MTN
183
C
O2
MTN
1
1
N
4
A
O3
MTN
183
C
O3
MTN
1
1
N
4
A
C12
MTN
183
C
C12
MTN
1
1
N
4
A
O2
MTN
184
D
O2
MTN
1
1
N
4
A
O3
MTN
184
D
O3
MTN
1
1
N
4
A
C12
MTN
184
D
C12
MTN
1
1
N
4
A
O2
MTN
185
E
O2
MTN
1
1
N
4
A
O3
MTN
185
E
O3
MTN
1
1
N
4
A
C12
MTN
185
E
C12
MTN
1
1
N
4
A
O2
MTN
186
F
O2
MTN
1
1
N
4
A
O3
MTN
186
F
O3
MTN
1
1
N
4
A
C12
MTN
186
F
C12
MTN
1
1
N
5
A
O2
MTN
182
B
O2
MTN
1
1
N
5
A
O3
MTN
182
B
O3
MTN
1
1
N
5
A
C12
MTN
182
B
C12
MTN
1
1
N
5
A
O2
MTN
183
C
O2
MTN
1
1
N
5
A
O3
MTN
183
C
O3
MTN
1
1
N
5
A
C12
MTN
183
C
C12
MTN
1
1
N
5
A
O2
MTN
184
D
O2
MTN
1
1
N
5
A
O3
MTN
184
D
O3
MTN
1
1
N
5
A
C12
MTN
184
D
C12
MTN
1
1
N
5
A
O2
MTN
185
E
O2
MTN
1
1
N
5
A
O3
MTN
185
E
O3
MTN
1
1
N
5
A
C12
MTN
185
E
C12
MTN
1
1
N
5
A
O2
MTN
186
F
O2
MTN
1
1
N
5
A
O3
MTN
186
F
O3
MTN
1
1
N
5
A
C12
MTN
186
F
C12
MTN
1
1
N
6
A
O2
MTN
182
B
O2
MTN
1
1
N
6
A
O3
MTN
182
B
O3
MTN
1
1
N
6
A
C12
MTN
182
B
C12
MTN
1
1
N
6
A
O2
MTN
183
C
O2
MTN
1
1
N
6
A
O3
MTN
183
C
O3
MTN
1
1
N
6
A
C12
MTN
183
C
C12
MTN
1
1
N
6
A
O2
MTN
184
D
O2
MTN
1
1
N
6
A
O3
MTN
184
D
O3
MTN
1
1
N
6
A
C12
MTN
184
D
C12
MTN
1
1
N
6
A
O2
MTN
185
E
O2
MTN
1
1
N
6
A
O3
MTN
185
E
O3
MTN
1
1
N
6
A
C12
MTN
185
E
C12
MTN
1
1
N
6
A
O2
MTN
186
F
O2
MTN
1
1
N
6
A
O3
MTN
186
F
O3
MTN
1
1
N
6
A
C12
MTN
186
F
C12
MTN
1
1
N
7
A
O2
MTN
182
B
O2
MTN
1
1
N
7
A
O3
MTN
182
B
O3
MTN
1
1
N
7
A
C12
MTN
182
B
C12
MTN
1
1
N
7
A
O2
MTN
183
C
O2
MTN
1
1
N
7
A
O3
MTN
183
C
O3
MTN
1
1
N
7
A
C12
MTN
183
C
C12
MTN
1
1
N
7
A
O2
MTN
184
D
O2
MTN
1
1
N
7
A
O3
MTN
184
D
O3
MTN
1
1
N
7
A
C12
MTN
184
D
C12
MTN
1
1
N
7
A
O2
MTN
185
E
O2
MTN
1
1
N
7
A
O3
MTN
185
E
O3
MTN
1
1
N
7
A
C12
MTN
185
E
C12
MTN
1
1
N
7
A
O2
MTN
186
F
O2
MTN
1
1
N
7
A
O3
MTN
186
F
O3
MTN
1
1
N
7
A
C12
MTN
186
F
C12
MTN
1
1
N
8
A
O2
MTN
182
B
O2
MTN
1
1
N
8
A
O3
MTN
182
B
O3
MTN
1
1
N
8
A
C12
MTN
182
B
C12
MTN
1
1
N
8
A
O2
MTN
183
C
O2
MTN
1
1
N
8
A
O3
MTN
183
C
O3
MTN
1
1
N
8
A
C12
MTN
183
C
C12
MTN
1
1
N
8
A
O2
MTN
184
D
O2
MTN
1
1
N
8
A
O3
MTN
184
D
O3
MTN
1
1
N
8
A
C12
MTN
184
D
C12
MTN
1
1
N
8
A
O2
MTN
185
E
O2
MTN
1
1
N
8
A
O3
MTN
185
E
O3
MTN
1
1
N
8
A
C12
MTN
185
E
C12
MTN
1
1
N
8
A
O2
MTN
186
F
O2
MTN
1
1
N
8
A
O3
MTN
186
F
O3
MTN
1
1
N
8
A
C12
MTN
186
F
C12
MTN
1
1
N
9
A
O2
MTN
182
B
O2
MTN
1
1
N
9
A
O3
MTN
182
B
O3
MTN
1
1
N
9
A
C12
MTN
182
B
C12
MTN
1
1
N
9
A
O2
MTN
183
C
O2
MTN
1
1
N
9
A
O3
MTN
183
C
O3
MTN
1
1
N
9
A
C12
MTN
183
C
C12
MTN
1
1
N
9
A
O2
MTN
184
D
O2
MTN
1
1
N
9
A
O3
MTN
184
D
O3
MTN
1
1
N
9
A
C12
MTN
184
D
C12
MTN
1
1
N
9
A
O2
MTN
185
E
O2
MTN
1
1
N
9
A
O3
MTN
185
E
O3
MTN
1
1
N
9
A
C12
MTN
185
E
C12
MTN
1
1
N
9
A
O2
MTN
186
F
O2
MTN
1
1
N
9
A
O3
MTN
186
F
O3
MTN
1
1
N
9
A
C12
MTN
186
F
C12
MTN
1
1
N
10
A
O2
MTN
182
B
O2
MTN
1
1
N
10
A
O3
MTN
182
B
O3
MTN
1
1
N
10
A
C12
MTN
182
B
C12
MTN
1
1
N
10
A
O2
MTN
183
C
O2
MTN
1
1
N
10
A
O3
MTN
183
C
O3
MTN
1
1
N
10
A
C12
MTN
183
C
C12
MTN
1
1
N
10
A
O2
MTN
184
D
O2
MTN
1
1
N
10
A
O3
MTN
184
D
O3
MTN
1
1
N
10
A
C12
MTN
184
D
C12
MTN
1
1
N
10
A
O2
MTN
185
E
O2
MTN
1
1
N
10
A
O3
MTN
185
E
O3
MTN
1
1
N
10
A
C12
MTN
185
E
C12
MTN
1
1
N
10
A
O2
MTN
186
F
O2
MTN
1
1
N
10
A
O3
MTN
186
F
O3
MTN
1
1
N
10
A
C12
MTN
186
F
C12
MTN
1
1
N
11
A
O2
MTN
182
B
O2
MTN
1
1
N
11
A
O3
MTN
182
B
O3
MTN
1
1
N
11
A
C12
MTN
182
B
C12
MTN
1
1
N
11
A
O2
MTN
183
C
O2
MTN
1
1
N
11
A
O3
MTN
183
C
O3
MTN
1
1
N
11
A
C12
MTN
183
C
C12
MTN
1
1
N
11
A
O2
MTN
184
D
O2
MTN
1
1
N
11
A
O3
MTN
184
D
O3
MTN
1
1
N
11
A
C12
MTN
184
D
C12
MTN
1
1
N
11
A
O2
MTN
185
E
O2
MTN
1
1
N
11
A
O3
MTN
185
E
O3
MTN
1
1
N
11
A
C12
MTN
185
E
C12
MTN
1
1
N
11
A
O2
MTN
186
F
O2
MTN
1
1
N
11
A
O3
MTN
186
F
O3
MTN
1
1
N
11
A
C12
MTN
186
F
C12
MTN
1
1
N
12
A
O2
MTN
182
B
O2
MTN
1
1
N
12
A
O3
MTN
182
B
O3
MTN
1
1
N
12
A
C12
MTN
182
B
C12
MTN
1
1
N
12
A
O2
MTN
183
C
O2
MTN
1
1
N
12
A
O3
MTN
183
C
O3
MTN
1
1
N
12
A
C12
MTN
183
C
C12
MTN
1
1
N
12
A
O2
MTN
184
D
O2
MTN
1
1
N
12
A
O3
MTN
184
D
O3
MTN
1
1
N
12
A
C12
MTN
184
D
C12
MTN
1
1
N
12
A
O2
MTN
185
E
O2
MTN
1
1
N
12
A
O3
MTN
185
E
O3
MTN
1
1
N
12
A
C12
MTN
185
E
C12
MTN
1
1
N
12
A
O2
MTN
186
F
O2
MTN
1
1
N
12
A
O3
MTN
186
F
O3
MTN
1
1
N
12
A
C12
MTN
186
F
C12
MTN
1
1
N
13
A
O2
MTN
182
B
O2
MTN
1
1
N
13
A
O3
MTN
182
B
O3
MTN
1
1
N
13
A
C12
MTN
182
B
C12
MTN
1
1
N
13
A
O2
MTN
183
C
O2
MTN
1
1
N
13
A
O3
MTN
183
C
O3
MTN
1
1
N
13
A
C12
MTN
183
C
C12
MTN
1
1
N
13
A
O2
MTN
184
D
O2
MTN
1
1
N
13
A
O3
MTN
184
D
O3
MTN
1
1
N
13
A
C12
MTN
184
D
C12
MTN
1
1
N
13
A
O2
MTN
185
E
O2
MTN
1
1
N
13
A
O3
MTN
185
E
O3
MTN
1
1
N
13
A
C12
MTN
185
E
C12
MTN
1
1
N
13
A
O2
MTN
186
F
O2
MTN
1
1
N
13
A
O3
MTN
186
F
O3
MTN
1
1
N
13
A
C12
MTN
186
F
C12
MTN
1
1
N
14
A
O2
MTN
182
B
O2
MTN
1
1
N
14
A
O3
MTN
182
B
O3
MTN
1
1
N
14
A
C12
MTN
182
B
C12
MTN
1
1
N
14
A
O2
MTN
183
C
O2
MTN
1
1
N
14
A
O3
MTN
183
C
O3
MTN
1
1
N
14
A
C12
MTN
183
C
C12
MTN
1
1
N
14
A
O2
MTN
184
D
O2
MTN
1
1
N
14
A
O3
MTN
184
D
O3
MTN
1
1
N
14
A
C12
MTN
184
D
C12
MTN
1
1
N
14
A
O2
MTN
185
E
O2
MTN
1
1
N
14
A
O3
MTN
185
E
O3
MTN
1
1
N
14
A
C12
MTN
185
E
C12
MTN
1
1
N
14
A
O2
MTN
186
F
O2
MTN
1
1
N
14
A
O3
MTN
186
F
O3
MTN
1
1
N
14
A
C12
MTN
186
F
C12
MTN
1
1
N
15
A
O2
MTN
182
B
O2
MTN
1
1
N
15
A
O3
MTN
182
B
O3
MTN
1
1
N
15
A
C12
MTN
182
B
C12
MTN
1
1
N
15
A
O2
MTN
183
C
O2
MTN
1
1
N
15
A
O3
MTN
183
C
O3
MTN
1
1
N
15
A
C12
MTN
183
C
C12
MTN
1
1
N
15
A
O2
MTN
184
D
O2
MTN
1
1
N
15
A
O3
MTN
184
D
O3
MTN
1
1
N
15
A
C12
MTN
184
D
C12
MTN
1
1
N
15
A
O2
MTN
185
E
O2
MTN
1
1
N
15
A
O3
MTN
185
E
O3
MTN
1
1
N
15
A
C12
MTN
185
E
C12
MTN
1
1
N
15
A
O2
MTN
186
F
O2
MTN
1
1
N
15
A
O3
MTN
186
F
O3
MTN
1
1
N
15
A
C12
MTN
186
F
C12
MTN
1
1
N
16
A
O2
MTN
182
B
O2
MTN
1
1
N
16
A
O3
MTN
182
B
O3
MTN
1
1
N
16
A
C12
MTN
182
B
C12
MTN
1
1
N
16
A
O2
MTN
183
C
O2
MTN
1
1
N
16
A
O3
MTN
183
C
O3
MTN
1
1
N
16
A
C12
MTN
183
C
C12
MTN
1
1
N
16
A
O2
MTN
184
D
O2
MTN
1
1
N
16
A
O3
MTN
184
D
O3
MTN
1
1
N
16
A
C12
MTN
184
D
C12
MTN
1
1
N
16
A
O2
MTN
185
E
O2
MTN
1
1
N
16
A
O3
MTN
185
E
O3
MTN
1
1
N
16
A
C12
MTN
185
E
C12
MTN
1
1
N
16
A
O2
MTN
186
F
O2
MTN
1
1
N
16
A
O3
MTN
186
F
O3
MTN
1
1
N
16
A
C12
MTN
186
F
C12
MTN
1
1
N
17
A
O2
MTN
182
B
O2
MTN
1
1
N
17
A
O3
MTN
182
B
O3
MTN
1
1
N
17
A
C12
MTN
182
B
C12
MTN
1
1
N
17
A
O2
MTN
183
C
O2
MTN
1
1
N
17
A
O3
MTN
183
C
O3
MTN
1
1
N
17
A
C12
MTN
183
C
C12
MTN
1
1
N
17
A
O2
MTN
184
D
O2
MTN
1
1
N
17
A
O3
MTN
184
D
O3
MTN
1
1
N
17
A
C12
MTN
184
D
C12
MTN
1
1
N
17
A
O2
MTN
185
E
O2
MTN
1
1
N
17
A
O3
MTN
185
E
O3
MTN
1
1
N
17
A
C12
MTN
185
E
C12
MTN
1
1
N
17
A
O2
MTN
186
F
O2
MTN
1
1
N
17
A
O3
MTN
186
F
O3
MTN
1
1
N
17
A
C12
MTN
186
F
C12
MTN
1
1
N
18
A
O2
MTN
182
B
O2
MTN
1
1
N
18
A
O3
MTN
182
B
O3
MTN
1
1
N
18
A
C12
MTN
182
B
C12
MTN
1
1
N
18
A
O2
MTN
183
C
O2
MTN
1
1
N
18
A
O3
MTN
183
C
O3
MTN
1
1
N
18
A
C12
MTN
183
C
C12
MTN
1
1
N
18
A
O2
MTN
184
D
O2
MTN
1
1
N
18
A
O3
MTN
184
D
O3
MTN
1
1
N
18
A
C12
MTN
184
D
C12
MTN
1
1
N
18
A
O2
MTN
185
E
O2
MTN
1
1
N
18
A
O3
MTN
185
E
O3
MTN
1
1
N
18
A
C12
MTN
185
E
C12
MTN
1
1
N
18
A
O2
MTN
186
F
O2
MTN
1
1
N
18
A
O3
MTN
186
F
O3
MTN
1
1
N
18
A
C12
MTN
186
F
C12
MTN
1
1
N
19
A
O2
MTN
182
B
O2
MTN
1
1
N
19
A
O3
MTN
182
B
O3
MTN
1
1
N
19
A
C12
MTN
182
B
C12
MTN
1
1
N
19
A
O2
MTN
183
C
O2
MTN
1
1
N
19
A
O3
MTN
183
C
O3
MTN
1
1
N
19
A
C12
MTN
183
C
C12
MTN
1
1
N
19
A
O2
MTN
184
D
O2
MTN
1
1
N
19
A
O3
MTN
184
D
O3
MTN
1
1
N
19
A
C12
MTN
184
D
C12
MTN
1
1
N
19
A
O2
MTN
185
E
O2
MTN
1
1
N
19
A
O3
MTN
185
E
O3
MTN
1
1
N
19
A
C12
MTN
185
E
C12
MTN
1
1
N
19
A
O2
MTN
186
F
O2
MTN
1
1
N
19
A
O3
MTN
186
F
O3
MTN
1
1
N
19
A
C12
MTN
186
F
C12
MTN
1
1
N
20
A
O2
MTN
182
B
O2
MTN
1
1
N
20
A
O3
MTN
182
B
O3
MTN
1
1
N
20
A
C12
MTN
182
B
C12
MTN
1
1
N
20
A
O2
MTN
183
C
O2
MTN
1
1
N
20
A
O3
MTN
183
C
O3
MTN
1
1
N
20
A
C12
MTN
183
C
C12
MTN
1
1
N
20
A
O2
MTN
184
D
O2
MTN
1
1
N
20
A
O3
MTN
184
D
O3
MTN
1
1
N
20
A
C12
MTN
184
D
C12
MTN
1
1
N
20
A
O2
MTN
185
E
O2
MTN
1
1
N
20
A
O3
MTN
185
E
O3
MTN
1
1
N
20
A
C12
MTN
185
E
C12
MTN
1
1
N
20
A
O2
MTN
186
F
O2
MTN
1
1
N
20
A
O3
MTN
186
F
O3
MTN
1
1
N
20
A
C12
MTN
186
F
C12
MTN
1
1
N
1
A
A
H
O1B
GLY
GTP
29
187
1.57
2
A
A
H
O1B
GLY
GTP
29
187
1.56
5
A
A
HG1
O2A
THR
GTP
31
187
1.51
5
A
A
H
O1B
LYS
GTP
30
187
1.53
9
A
A
H
O1B
GLY
GTP
29
187
1.53
9
A
A
HG1
O2B
THR
GTP
31
187
1.60
10
A
A
H
O3G
GLY
GTP
70
187
1.51
10
A
A
H
O1B
GLY
GTP
29
187
1.55
10
A
A
HG1
O2B
THR
GTP
31
187
1.58
11
A
A
H
O1B
GLY
GTP
29
187
1.59
12
A
A
H
O1B
GLY
GTP
29
187
1.54
13
A
A
H
O1B
GLY
GTP
29
187
1.59
14
A
A
H
O1B
GLY
GTP
29
187
1.53
15
A
A
H
O1B
GLY
GTP
29
187
1.52
16
A
A
H
O1B
GLY
GTP
29
187
1.52
17
A
A
HG1
O1A
THR
GTP
45
187
1.56
20
A
A
H
O1B
GLY
GTP
29
187
1.59
1
A
ILE
49
-103.00
70.69
1
A
ASN
60
75.13
-0.18
1
A
TYR
82
81.95
25.00
1
A
CYS
83
38.27
101.81
1
A
ASN
84
-179.59
-28.37
1
A
ASP
96
-111.04
78.63
1
A
PRO
152
-67.72
97.07
1
A
ASN
179
67.34
-65.75
2
A
LEU
25
-122.08
-164.51
2
A
CYS
83
67.19
-70.77
2
A
ASN
84
-168.43
62.40
2
A
ASP
96
-113.40
79.90
2
A
ASN
179
-90.07
30.29
3
A
LYS
16
-119.32
-81.98
3
A
LEU
25
-56.74
-164.25
3
A
ASN
60
76.35
-1.70
3
A
GLN
71
-143.15
-87.84
3
A
CYS
83
62.56
-80.20
3
A
ASN
84
-156.20
62.93
3
A
ASP
96
-115.41
79.39
3
A
PRO
152
-67.88
95.53
3
A
ASN
179
35.07
61.39
3
A
SER
180
61.46
104.65
4
A
LYS
16
177.50
41.89
4
A
HIS
80
-130.21
-40.36
4
A
ASP
96
-108.91
78.53
4
A
PRO
152
-67.21
95.87
4
A
SER
180
-154.46
-47.66
5
A
PRO
47
-57.43
108.46
5
A
ASN
60
75.30
-0.58
5
A
HIS
80
-150.23
17.69
5
A
TYR
82
-127.21
-73.18
5
A
ASN
84
-162.76
29.25
5
A
ASP
96
-109.71
76.69
5
A
PRO
152
-67.43
95.50
5
A
LEU
177
-95.03
-61.84
5
A
ASN
179
34.67
62.82
5
A
SER
180
59.37
168.11
6
A
ASN
15
61.43
113.65
6
A
LYS
16
-51.87
104.73
6
A
ASN
60
76.30
-2.74
6
A
GLN
71
73.20
-126.01
6
A
HIS
80
-158.40
26.97
6
A
TYR
82
-155.51
-67.06
6
A
ASN
84
-149.48
25.59
6
A
ASP
96
-110.48
79.48
6
A
PRO
152
-67.34
99.77
7
A
ASN
15
55.85
-87.10
7
A
LYS
16
-115.89
62.43
7
A
ASN
60
75.59
-0.73
7
A
GLN
71
-129.32
-82.70
7
A
TYR
82
81.73
10.66
7
A
CYS
83
55.25
105.21
7
A
ASN
84
176.35
-29.41
7
A
ASP
96
-108.01
76.26
7
A
ALA
125
-59.20
103.76
7
A
ASN
179
-91.10
34.10
7
A
SER
180
-127.01
-52.21
8
A
ASN
15
-59.00
-82.49
8
A
LEU
25
-56.41
-166.34
8
A
CYS
59
68.09
-86.98
8
A
TYR
82
80.98
-4.86
8
A
CYS
83
62.59
117.78
8
A
ASN
84
166.98
-26.45
8
A
ASP
96
-115.05
78.81
8
A
LEU
177
-94.28
-60.70
8
A
ASN
179
35.81
61.52
8
A
SER
180
61.74
104.67
9
A
CYS
59
70.50
-89.14
9
A
GLN
71
175.90
147.31
9
A
TYR
81
-145.72
16.58
9
A
CYS
83
59.94
-174.55
9
A
ASN
84
-67.35
69.95
9
A
ASP
96
-112.12
78.97
9
A
PRO
152
-67.48
96.57
9
A
LEU
177
-94.38
-62.42
9
A
ASN
179
37.81
57.64
10
A
LYS
16
49.52
28.84
10
A
ILE
49
-101.86
63.54
10
A
ASN
60
78.45
-3.44
10
A
TYR
81
-157.33
25.21
10
A
CYS
83
59.81
-83.56
10
A
ASN
84
-173.31
74.62
10
A
ASP
96
-110.96
78.07
10
A
ALA
125
-59.92
104.24
10
A
LEU
177
-91.72
-61.31
10
A
ASN
179
71.02
-1.33
10
A
SER
180
60.43
178.82
11
A
LEU
25
-57.99
-160.97
11
A
ILE
49
-107.63
60.82
11
A
GLN
71
169.46
-90.23
11
A
ASN
84
-172.85
47.37
11
A
ASP
96
-112.00
78.80
11
A
ALA
125
-59.38
106.19
11
A
PRO
152
-67.65
95.80
11
A
LEU
177
-97.42
-61.06
11
A
ASN
179
32.88
66.79
12
A
LYS
16
-45.24
169.50
12
A
LEU
25
-56.96
-165.43
12
A
ILE
49
-97.87
41.71
12
A
ASN
60
74.60
-0.35
12
A
CYS
83
63.01
-82.22
12
A
ASN
84
-150.24
57.52
12
A
ASP
96
-114.11
78.69
12
A
ASN
179
105.66
145.80
12
A
SER
180
-103.53
-60.02
13
A
ASN
15
60.50
175.50
13
A
LEU
25
59.65
120.17
13
A
ILE
49
-117.00
78.72
13
A
CYS
59
67.74
-84.34
13
A
TYR
81
-150.16
19.67
13
A
CYS
83
64.93
-73.57
13
A
ASN
84
-166.56
78.06
13
A
ASP
96
-110.98
77.91
13
A
PRO
152
-67.44
95.96
13
A
SER
180
61.62
147.97
14
A
ASN
15
-56.22
-166.47
14
A
LEU
25
-57.80
-161.94
14
A
ILE
49
-97.60
39.61
14
A
ASN
60
78.35
-3.82
14
A
CYS
83
60.42
-82.63
14
A
ASN
84
-157.59
68.91
14
A
ASP
96
-110.65
79.16
14
A
ARG
149
-163.33
-43.57
15
A
ILE
49
-97.51
41.46
15
A
ASN
60
77.48
-2.71
15
A
GLN
71
-44.04
158.76
15
A
TYR
81
-141.84
12.65
15
A
CYS
83
64.37
-78.05
15
A
ASN
84
-165.44
74.15
15
A
ASP
96
-110.26
77.14
15
A
ALA
133
-36.83
158.30
15
A
PRO
152
-66.90
95.54
15
A
LEU
177
-92.53
-60.93
15
A
ASN
179
34.70
61.91
15
A
SER
180
61.82
151.95
16
A
LYS
16
-109.42
74.81
16
A
LEU
25
-56.30
-163.58
16
A
ASN
60
74.98
-0.32
16
A
GLN
71
173.16
-178.10
16
A
HIS
80
-150.97
19.31
16
A
TYR
82
177.38
-43.22
16
A
ASN
84
-140.47
24.31
16
A
ASP
96
-111.10
78.96
16
A
LEU
177
-94.73
-60.33
16
A
ASN
179
37.66
57.29
17
A
LEU
25
-55.63
-166.37
17
A
PRO
47
-57.36
109.09
17
A
GLN
71
-130.09
-81.01
17
A
TYR
81
-150.87
19.07
17
A
ASN
84
-146.64
18.06
17
A
ASP
96
-112.11
78.10
17
A
PRO
152
-67.60
97.25
17
A
ASN
179
-173.99
16.35
17
A
SER
180
58.98
168.77
18
A
LEU
25
-56.08
-164.52
18
A
PRO
47
-57.50
108.86
18
A
ASN
60
79.07
-5.09
18
A
GLN
71
-142.11
-89.76
18
A
CYS
83
58.17
-175.73
18
A
ASN
84
-66.09
72.25
18
A
ALA
125
-59.80
104.19
18
A
PRO
152
-67.74
97.95
18
A
LEU
177
-94.61
-62.45
18
A
ASN
179
35.59
62.76
19
A
ILE
49
-95.33
56.25
19
A
ASN
60
76.61
-2.43
19
A
TYR
81
-168.57
32.27
19
A
ASN
84
166.68
-27.85
19
A
ASP
96
-110.74
78.39
19
A
PRO
152
-67.41
95.86
19
A
LEU
177
-93.07
-60.91
20
A
ASN
15
-57.43
100.57
20
A
ILE
49
-104.30
69.56
20
A
CYS
59
70.59
-84.27
20
A
GLN
71
-46.98
155.58
20
A
TYR
81
-174.44
29.93
20
A
TYR
82
-92.67
33.38
20
A
ASN
84
79.63
-4.17
20
A
ASP
96
-108.70
78.79
20
A
PRO
152
-67.41
98.89
20
A
ASN
179
61.04
104.82
20
A
SER
180
-162.49
113.47
ADP-ribosylation factor 1
lowest energy, model 4
The myristoylated yeast ARF1 in a GTP and bicelle bound conformation
1
N
N
2
N
N
2
N
N
2
N
N
2
N
N
2
N
N
3
N
N
A
GLY
2
A
GLY
2
HELX_P
A
ASN
11
A
ASN
11
1
1
10
A
LEU
12
A
LEU
12
HELX_P
A
GLY
14
A
GLY
14
5
2
3
A
GLY
29
A
GLY
29
HELX_P
A
GLY
40
A
GLY
40
1
3
12
A
GLN
71
A
GLN
71
HELX_P
A
SER
76
A
SER
76
1
4
6
A
LEU
77
A
LEU
77
HELX_P
A
TYR
81
A
TYR
81
5
5
5
A
ARG
99
A
ARG
99
HELX_P
A
ASN
112
A
ASN
112
1
6
14
A
GLU
113
A
GLU
113
HELX_P
A
CYS
117
A
CYS
117
5
7
5
A
SER
135
A
SER
135
HELX_P
A
LEU
143
A
LEU
143
1
8
9
A
GLY
165
A
GLY
165
HELX_P
A
LYS
178
A
LYS
178
1
9
14
covale
1.330
A
MYR
1
A
C1
MYR
1
1_555
A
GLY
2
A
N
GLY
2
1_555
covale
2.030
A
A
CYS
55
A
SG
CYS
55
1_555
A
MTN
182
B
S1
MTN
1_555
covale
2.030
B
A
CYS
55
A
SG
CYS
55
1_555
A
MTN
182
B
S1
MTN
1_555
covale
2.032
C
A
CYS
55
A
SG
CYS
55
1_555
A
MTN
182
B
S1
MTN
1_555
covale
2.029
A
A
CYS
59
A
SG
CYS
59
1_555
A
MTN
183
C
S1
MTN
1_555
covale
2.028
B
A
CYS
59
A
SG
CYS
59
1_555
A
MTN
183
C
S1
MTN
1_555
covale
2.030
C
A
CYS
59
A
SG
CYS
59
1_555
A
MTN
183
C
S1
MTN
1_555
covale
2.030
A
A
CYS
83
A
SG
CYS
83
1_555
A
MTN
184
D
S1
MTN
1_555
covale
2.030
B
A
CYS
83
A
SG
CYS
83
1_555
A
MTN
184
D
S1
MTN
1_555
covale
2.031
C
A
CYS
83
A
SG
CYS
83
1_555
A
MTN
184
D
S1
MTN
1_555
covale
2.030
A
A
CYS
117
A
SG
CYS
117
1_555
A
MTN
185
E
S1
MTN
1_555
covale
2.030
B
A
CYS
117
A
SG
CYS
117
1_555
A
MTN
185
E
S1
MTN
1_555
covale
2.029
C
A
CYS
117
A
SG
CYS
117
1_555
A
MTN
185
E
S1
MTN
1_555
covale
2.029
A
A
CYS
176
A
SG
CYS
176
1_555
A
MTN
186
F
S1
MTN
1_555
covale
2.030
B
A
CYS
176
A
SG
CYS
176
1_555
A
MTN
186
F
S1
MTN
1_555
covale
2.029
C
A
CYS
176
A
SG
CYS
176
1_555
A
MTN
186
F
S1
MTN
1_555
TRANSPORT PROTEIN
ARF, myristoylated, myristoyl, GTP, bicelle, ER-Golgi transport, Golgi apparatus, GTP-binding, Lipoprotein, Myristate, Nucleotide-binding, Protein transport, Transport, TRANSPORT PROTEIN
ARF1_YEAST
UNP
1
2
P11076
GLFASKLFSNLFGNKEMRILMVGLDGAGKTTVLYKLKLGEVITTIPTIGFNVETVQYKNISFTVWDVGGQDRIRSLWRHY
YRNTEGVIFVVDSNDRSRIGEAREVMQRMLNEDELRNAAWLVFANKQDLPEAMSAAEITEKLGLHSIRNRPWFIQATCAT
SGEGLYEGLEWLSNSLKNST
2
181
2KSQ
2
181
P11076
A
1
2
181
1
SEE REMARK 999
MYR
1
2KSQ
A
P11076
UNP
1
1
THR
SEE REMARK 999
CYS
55
2KSQ
A
P11076
UNP
55
55
1
LYS
SEE REMARK 999
CYS
59
2KSQ
A
P11076
UNP
59
59
1
ARG
SEE REMARK 999
CYS
83
2KSQ
A
P11076
UNP
83
83
1
ARG
SEE REMARK 999
CYS
117
2KSQ
A
P11076
UNP
117
117
1
SER
SEE REMARK 999
CYS
176
2KSQ
A
P11076
UNP
176
176
3
6
anti-parallel
anti-parallel
anti-parallel
parallel
parallel
parallel
parallel
A
PHE
51
A
PHE
51
A
ASN
52
A
ASN
52
A
ILE
61
A
ILE
61
A
VAL
68
A
VAL
68
A
CYS
55
A
CYS
55
A
TYR
58
A
TYR
58
A
PHE
51
A
PHE
51
A
ASN
52
A
ASN
52
A
ILE
61
A
ILE
61
A
VAL
68
A
VAL
68
A
GLU
17
A
GLU
17
A
GLY
24
A
GLY
24
A
GLY
87
A
GLY
87
A
ASP
93
A
ASP
93
A
TRP
121
A
TRP
121
A
ASN
126
A
ASN
126
A
TRP
153
A
TRP
153
A
ALA
157
A
ALA
157
BINDING SITE FOR RESIDUE MTN A 182
Software
1
BINDING SITE FOR RESIDUE MTN A 183
Software
1
BINDING SITE FOR RESIDUE MTN A 184
Software
2
BINDING SITE FOR RESIDUE MTN A 185
Software
5
BINDING SITE FOR RESIDUE MTN A 186
Software
3
BINDING SITE FOR RESIDUE GTP A 187
Software
16
A
CYS
55
A
CYS
55
1
1_555
A
CYS
59
A
CYS
59
1
1_555
A
HIS
80
A
HIS
80
2
1_555
A
CYS
83
A
CYS
83
2
1_555
A
ASN
112
A
ASN
112
5
1_555
A
GLU
113
A
GLU
113
5
1_555
A
ASP
114
A
ASP
114
5
1_555
A
CYS
117
A
CYS
117
5
1_555
A
ARG
151
A
ARG
151
5
1_555
A
ASN
175
A
ASN
175
3
1_555
A
CYS
176
A
CYS
176
3
1_555
A
LYS
178
A
LYS
178
3
1_555
A
ASP
26
A
ASP
26
16
1_555
A
GLY
27
A
GLY
27
16
1_555
A
ALA
28
A
ALA
28
16
1_555
A
GLY
29
A
GLY
29
16
1_555
A
LYS
30
A
LYS
30
16
1_555
A
THR
31
A
THR
31
16
1_555
A
THR
32
A
THR
32
16
1_555
A
THR
45
A
THR
45
16
1_555
A
ILE
46
A
ILE
46
16
1_555
A
THR
48
A
THR
48
16
1_555
A
GLY
69
A
GLY
69
16
1_555
A
GLY
70
A
GLY
70
16
1_555
A
ASN
126
A
ASN
126
16
1_555
A
ASP
129
A
ASP
129
16
1_555
A
ALA
160
A
ALA
160
16
1_555
A
THR
161
A
THR
161
16
1_555